Jolt stripper molding machine



May 23, 1950 L. c. YOUNG 2,503,440

J'OLT STRIPPER MOLDING MACHINE Filed April 23, 1946 5 SheetsSheet 1 INVEN TOR.

May 23, 1950 I L. c. YOUNG 2,508,440

JOLT STRIPPER MOLDING MACHINE Filed April 23, 1946 s Sheets-Sheet 2 I IL n IN V EN TOR.

BY M

May 23, 1950 0Q YOUNG JOLT STRIPPER MOLDING MACHINE 5 Sheets-Sheet 3 Filed April 23, 1946 INVEN TOR.

By G 4120 MM 9% m- May 23, 1950 c. YOUNG 2,508,440

JOLT STRIPPER MOLDING MACHINE Filed April 23, 1946 5 Sheets-Sheet 5 IN VEN TOR.

Patented May 23, 1950 JOLT s'm rrun MOLDING MAQHINE Lester C. Young, Cleveland, Ohio, assignor -to Sr .I ncco n tatio oi- Ohio Substituted for abandoned application Serial No. 415,157, October 16, 19411 This application April'23, v1946, Serial No. 664,190

1 3 qlainus- This invention relates to Jolt s ripp molding machines f the typel ed n the pr duc on ofgreen sand molds and has for its primaryobe. last to provide an impr v d stripper m a s so arranged thatv a materially reater pat er drawis afforded thereby adapting the machines for the handling of- ,pattcms of substantially larger sizes than heretofore.

Another object of the present invention is to provide" a stripper means so constructed and 8/1: .rangedon a jolt machine that the eifective pat: tern draw is materially increased without the necessity of impracticably increasing the-overall size of'the machine.

Another object of" the present inventionis to provide suitable guide means for the stripper pins extending upwardly from the base-of the machine in relatively spaced relation to insure rigidity of the stripper pins.

Another object ofthe present invention is to provide an improved equalizing means for effect? fmg uniform movement of the stripper pins reg-ardless of-any'tendency toward relatively difier-. ent independent movement :to insure accurate stripping of the mold from the'pattern.

Another object of the present invent-ion is to provide a, vmachine of the character referred to which is simple in construction, efficient in operation, and inex ensive to manufacture and assemble.

Other objects and 'a-fuiler understanding of my invention :may be had by referring to the follow? ing description and -.clai1 ns, "taken in conjunction with the accompanying drawing, in which:

Figure 1 is a pictorial view of a jolt stripper molding machine embodying my invention with the stripper pinsshown intheirunraised or low? ermost position;-

liigure 2 :is a view tsimilar to Figure 1 with the :str-lpperplnsshown in theirraised or upper! roo position;

fi ure.- 3 is 8491201 view of my 19 t pper strip enmeanswembodiedjin a jolt molding mas an l ope atio but thestrirper means isladapta l *g embodiment: in other utypes I of moldi m ehmeswhich-w-ill hciteadilysapparent tho fi all,

2 miliar wi h the art nd he inventi n is there: ore o way so r t c d,

T e olt ach ne com i s a ba e IQ, o rficr. tangular shape,'havi ng a relatively fiat bottom adapted to rest on a suitable foundation such as the bo t m of at r o r u t up or and preferably constructed of a semiesteel casts ne r an ther t b m t ria e upp r surface of the base l0 extends upwardly and inward-1y at an an le an r t s i n up e surface or end ll substantially parallel with the base Ly se Fi ure 4.- An i tesr I nal flange 1-2 projects outwardly and extends entire y aro nd the u per end of he base while t upper surface or end ll is recessed at 13 except f a ent a ly d s ose pr iesticn 4 ha n a flat face which functions as an anvil in a manner to be later described.

A jolt cylinder l5, preferably constructed of a semi-steel castingor any other suitable mate; rial, is disposed above the base It] and has a bore "5 of suitable diameter extending outwardly in perpendicular relation to the and H. The lower end of the cylinder l5 has a, laterally extending peripheral flange ll engageable with the flange l2 and detachably connected thereto by bolts or other suitable means. The cylinder l5 has its outer wall provided with outwardly projecting integral ribs l9 extending longitudinally there along for reinforcing the same.

A jolt piston 21, preferably constructed of a semi-steel casting or any other suitable material, is snugly but slidably disposed within the bore l 6 of the cylinder l5 and has its lower end nor mally resting in engagement with a projection or anvil H, see Figure 4. The piston 2| is adapted to be raised for jolting operation by fluid under pressure admitted to the lower end of the cylin-. der 15 through a fluid duct or pipe 20. The upper endv of the piston 2| is formed with a laterally extending peripheralfiange 23 disposed above the-upper end of the cylinder lo A trans- .verse slot 25 'is-provided in the wall of the pis-i ton 2! substantially midway of its ends to slidably receive the free end of a pin- 26, which is secured in the adjacent wall of the cylinder l5 to limit the outward sliding movement of-the piston.

A table 28, preferably constructed of a semisteel casting or any other suitable material, is disposed horizontally above the upper end of the piston 25 and has asubstantially flat smooth upper surface upon which the pattern, flask, and molding'sand areisupported in the usual manner. The-table 28 has a depending centrally disposed portion rawhichte minates l te al y xt nds 3 ing peripheral flange 30 connected to the piston flange 23 by bolts or other suitable means for unitary movement. The table is materially large and is adapted for the handling of large patterns and has its corners indented at 3| for a purpose to be later described. So much of the description refers to the general arrangement of the elements of a jolt machine of large scale and atten tion is directed to the fact that the machine illustrated in Figures 4 and 5, is on a scale of approximately 1 /2" to 1'0". Generally jolt machines of this size are mounted in pits provided in suitable foundations and the table 28 projects out-- wardly a sufficient distance above the floor level as indicated by 32.

- Jolt machines of the size illustrated which are;

equipped with the usual type of stripper mechanism have a maximum pattern draw of approximately 12" at best and in many instances considerably less which materially reduced their effectiveness in the production of green sand molds for large, castings. To obtain greater pattern draw it was necessary to materially'enlarge the machine elements which procedure wa entirely out of practical proportions, principally because it increased the cost of the machines and further required too deep pits. The stripper means of the present invention, however, when embodied as intended upon the jolt machine illustrated only necessitated an additional 10" in its overall height 'to provide a pattern draw of 26". Some appreciation of the accomplishment may be had when it is pointed out that the use of the ordinary stripper mechanism heretofore available an increase of from 4' to 5 in the overall height was required to obtain the same pattern draw.

' The preferable arrangement of the stripper mechanism as illustrated in the drawings comprises two pairs of guide rods 3334 and 35-36 respectively of steel material each vertically disposed and relatively spaced. The pair of rods 33'34 are disposed'on one side of the jolt cylinder l5 inrelatively spaced transverse alignment while the pair of rods 35-46 are disposed on the opposite side of the cylinder, and similarly spaced relatively in transverse alignment. Each pair of rods is further relatively disposed so that the rods 33and 35 are in longitudinal alignment on the long side and the rods 34 and 36 are in similar longitudinal alignment on the other long side thus providing four points of suspension for the stripper pin actuating mechanism in a manner to be later described. The rods are each removable thus affording replacement in case of wear and of identical structure, permitting interchangeability.

The guide rods may be removably secured to the base ill by any suitable means and as illustratedin the drawings, the lower end of the rods are arranged respectively to fit into base receptacles 2'! which have threadable set screws 35 extending horizontally therein for engaging the side of the rods. 'When removing the rods from the base II], it is only necessary to unloosen the set screws and elevate the rods from their respective base receptacles. The upper ends of the guide rods are respectively supported by side arm brackets 4!} which extend laterally from the upper end of the cylinder l5. The ends of the side arm brackets terminate into sockets which receive and support the upper ends of the rods. The upper ends of the rods are removably secured in the sockets by means of socket clamps or blocks 38 which may be fastened by machine screws 4| or by other suitable means to the outer lateral ends of the brackets 40. The rods are thus secured in a fixed vertical position and are supported by having their lower ends removably connected to the base in and by having their upper ends removably connected to the brackets which are connected to the upper end of the cylinder l5. When removing the guide rods, the socket clamps 38 are removed by unscrewing the machine screws 4|.

Slidably mounted upon the guide rods 33 and 34 is a stripping pin supporting unit 46 and slidably mounted upon the guide rods 35 and 36 is a stripping pin supporting unit 41. The stripping pin supporting units are alike and are preferably constructed of a semi-steel casting or any other suitable material which affords strength and rigidity. Since the stripping pin supporting units are alike, the description thereof will be directed toward the stripping pin supporting unit 46 which comprises a vertically disposed stripper cylinder 48 centrally mounted between the rods 33 and 34. The cylinder 48 has its upper end closed by a cylinder head 49 and its lower end by a cylinder head 53. Mounted within the cylinder 48 is a piston which is connected to a piston rod 5| having its lower end removably connected to the base it by any suitable means such, for example, as by the nut 52, see Figure 4. Extending laterally of the stripper cylinder 48 are two lateral wings 53 and 54. The Wing 53 is provided with a vertical opening through which the guide rod 34 extends. The upper end of the vertical opening in the lateral wing 53 is provided with a replaceable bushing 51 and the lower end of the vertical opening is provided with a replaceable bushing 58. The bushings 51 and 58 are spaced apart so as to give stabilized mounting of the stripper cylinder 48. Similarly, the lateral wing 54 is provided with a vertical opening through which the guide rod 33 extends. The upper end of the vertical opening in the lateral wing 54 is provided with a replaceable bushing 55, and the lower end is provided with a replaceable bushing 56. The pin support unit 43 is adapted to be slidably elevated upon the guide rods 33 and 34 when air or fluid under pressure is admitted to the upper end of the cylinder 48. Any suitable means may be employed to admit fluid under pressure to the upper end of the cylinder 48, and I show a fluid pipe or duct 60 having a branch on the end thereof with one branch leading to the upper end of the stripping cylinder of the stripping pin supporting unit 46 through a flexible hose GI, and with the other end of the branch leading to the upper end of the stripper cylinder of the stripping pin supporting unit 41 through the air hose 59. When fluid under pressure is admitted to the upper ends of the cylinder for the stripping pin supporting units 46 and 41, the units slide upwardly upon their respective guide rods for simultaneously raising stripper pins 64, 65, and 61, the stripper pins 64 and 65 being carried by the stripping pin supporting unit 46, and the stripper pins 65 and 31 being carried by the stripping pin supporting unit 41. The stripper pins are all alike and each is provided at the lower end with an L-shaped foot 58 which rests respectively upon laterally disposed shoulders 52 of the stripping pin sup porting units 46 and 41. Each of the shoulders as shown in Figure 5 is provided with a slot 88 through which a bolt extends for anchoring the foot to the horizontal shoulder. In this manner, each of thestripper pins may be laterally adjusted with reference tothe table 28 and the connected to opposite sides of'saidelevating means, said first bearing support arm having vertically spaced bearings and slidably surround.-

ing said first guide bar and said second bearing support arm having vertically spaced bearings and slidably surrounding said secondguide'ban, a second stripping pin supporting unitsolely guided by the third gand fourthguide bars and comprising an intermediatelydisposed second elevating meanssupported by the base and having third and fourth laterally extending-bearing support arms connected to opposite sides of said second elevating means, said third bearing support arm having vertically spaced bearings and slidably surrounding said third guide bar and said fourth bearing support arm having vertically spaced bearings and slidably surrounding-said fourth guide bar, an equalizing means having portions operatively interconnected between said base and both of said stripping pin supporting units for effecting a substantially simultaneous unitary movement of said stripping pin supporting units, and a plurality of stripping pins mounted on each stripping pin supporting unit and projecting upwardly in vertical disposition for engagement with the flask. v

2. A molding machine comprisinga base, upright supporting means fastened to the base, a horizontally disposed table mounted on the upper end-of said upright supportingmeans and on which a pattern and aflask around the pattern may be supported, first and second brackets rigidly connected to said upright supporting means, said brackets each having attachment means provided thereon at a fixed lateral disright supporting means fastened to the base, a

tance from said supporting means, said 'attachment ,means on said first and second brackets constituting a first pair and being mounted at a fixed elevated position above the base and being laterally spaced from each other and defining a line extending in a first direction, third and fourth brackets rigidly connected to said upright supporting means, said brackets each having attachment means provided thereon at a fixed lateral distance from said supporting means, said attachment means on said third and fourth brackets constituting a second pair and being mounted at a fixed elevatedposition above the base and being laterally spaced from each other and defining a line extending in the same general direction as said first direction, said at- I tachment means on said first bracket "and said attachment means on said third bracket being laterally spaced from eachother and defining a lineextending in a direction generally'ftransverse to'said firstdirection and said attachment means on said second bracket and said attachment means on said fourth bracket being laterally spaced from'each: other and defining a line ,also extending n a direction; generally transverse to said first direction, first-andsecond perpen'.

,dicularly, extending and laterallyspaced guide 8 bars having their lower ends secured to said base and having their upper ends steadily fastened respectively to the attachment means on said first and second brackets, third and fourth perpendicularly extending and laterally spaced guide bars having their lower ends secured to said base and having their upper ends steadily secured respectively to the attachment means on said third and fourth brackets, a first stripping pin supporting unit solely guided by the first and second guide bars and comprising an intermediately disposed first elevating means supported by the base and having first and second laterally extending bearing support arms connected to opposite sides of said elevating means, said first bearing support arm having vertically spaced bearings and slidably surrounding said first guide bar and said second bearing support arm having vertically spaced bearings and slidably surround- ;ing said secondguide bar, a second stripping pin supporting unit solely guided by the third-and fourth guide bars :and. comprising an intermediately. disposed second. elevating means supported by the base andhaving third and fourth laterally. extending bearing support arms connected to opposite sides of said second elevating means, said thirdsbearingsupport arm having vertically spaced .bearingsand slidably surrounding said third guide. bar and said fourth bearing support arm vhavingivertically spaced bearings rotatably supporting the torsion bar, and a plurality of stripping pins mounted on each stripping pin supporting unit and projecting, upwardly in vertical disposition for engagement with the flask. i

3. A molding machine comprising, a base, up-

horizontally disposed table mounted on the-upper end of said upright supporting means and on which a pattern and a fiask around the pattern may be supported, first and second perpendicularly extending andjlaterally spaced guide bars having their lower ends rigidly secured to said base and having their upper ends steadily positioned at a fixed distance from said supporting means, said guide bars constituting a first pair and being laterally spaced from each other and defining a line extending-in a first direction, third and fourth perpendicularly extending and laterally. spaced guide bars having their lower ends rigidly secured to said base and having their upper ends steadily positioned at a fixed distance from said supporting means, said guide bars constituting a second pair and being laterally spaced from each other and defining a line extending in the same general direction as said first direction,

said; first guide -bar and-said third guide bar being laterally spaced from each other and defining a line extending in a direction generally transverse to said first direction and said second guidebar and said fourth guide bar being laterally spaced from each other and defining a line 'also extending in a direction generally transverse to said first direction, a first stripping pin'supporting unitsolely guided by the first and second guide bars and comprising anintermediately dis;

posed first elevating means supported by the'base and having first and second laterally extending bearing support arms connected to opposite 'sides of said elevating means, said first bearing support arm having vertically spaced bearings and slidably surrounding said first guide bar arid said second bearing support arm having vertically spaced bearings and slidably surrounding said second guide bar, a second stripping pin supporting unit solely guided by the third andgiourth guide bars and comprising an intermediately disposed second elevating means supportediby the base and having third and fourth laterally extending bearing support arms connectedgto opposite sides of said second elevating means, said third bearing support arm having 'yertically spaced bearings and slidably surrounding said third guide bar and said fourth bearing support arm having vertically spaced bearings and slidably surrounding said fourth guide bar, an equal- 20 izing means having portions operatively interconnected between said base and both of said stripping pin supporting units for effecting a substantially simultaneous unitary movement of said stripping pin supporting units, and a plurality of stripping pins mounted on each stripping pin supporting unit and projecting upwardly in vertical disposition for engagement with the flask.

LESTER C. YOUNG.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 851,166 Herman Apr. 23, 1907 1,524,117 Tscherning Jan. 27, 1925 1,626,225 Campbell Apr. 26, 1927 1,656,951 Nicholls Jan. 24, 1928 1,695,921 Harmes Dec. 18, 1928 1,851,321 Oyster Mar. 29, 1932 2,142,491 Byerlin et a1 Jan. 3, 1939 FOREIGN PATENTS Number Country Date 328,012 Great Britain Apr. 16, 1930 241,066 Germany Nov. 24, 1911 540,972 Germany Jan. 4, 1932 

